A REVIEW PAPER ON QUAD ROTOR AN UNMANNED AERIAL VEHICLE
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1 A REVIEW PAPER ON QUAD ROTOR AN UNMANNED AERIAL VEHICLE 1 Vikram H. Mody, 2 Niraj R. Shingala, 3 Pankit B. Kondhiya Assistant Professor Mechanical Engineering Department V.V.P. Engineering College, Gujarat, India Abstract:The usage of Unmanned Aerial Vehicles (UAVs) has grown drastically because of their ability to operate in dangerous locations while keeping their human operators at a safe distance. UAVs are widely used in military operations nowadays because of their reliability, cost effectiveness and multi-functionality. The problem we posed in this paper is the weight lifting capacity of UAVs. Improvement in weight lifting capacity may leads to adding a more function in account of UAVs. To validate this proposal, we considered many different structures of UAVs and choose Quadrotor. The payload of our Quadrotor is around 4 kg which adds function of weight lifting in military operations as well as industrial applications. Calculation of aerodynamic drag-lift forces has been done. The stresses generated in the body of quadrotor is not more than 22.5 MPa in "Box" sectional chassis and 22.2 MPa in "C" Sectional chassis as per the practical testing. To validate these results, the stress analysis of two types of body of quadrotor ("Box" and "C" section) is carried out in ANSYS static structural solver. As per the Static Structural solver the stress generated are 15.4 MPa and MPa in "Box" and "C" sectional chassis respectively. Further analysis and fabrication of model is under process. Quadrotor can be used in safety, inspection of tool in construction industry, toxic material handling, transmitting important and emergency orders. Keywords:Quadrotor, Unmanned Aerial Vehicle (UAV), Aerodynamic drag-lift forces. 1. Introduction In nowadays the development of small UAV is 1. Introduction In nowadays the development of small UAV is under the interest of many researchers and want to explore the application. There is currently a large range of projects and research topics emerging in this field. Preliminary research has shown that the most versatile and mechanically easy to construct UAV is a quadrotor helicopter. This is due to the fact that quadrotor aerial robot is an automatic system which is an unmanned VTOL (vertical take-off and landing) helicopter. Quadrotors can be controlled by varying the speed of the four rotors and no mechanical linkages are required to vary the rotor blade pitch angles as compare to a conventional helicopter. 2. Body of Manuscript 2. Construction Quadrotor consisting of a main body having four arms centrally connected to each other and four DC brushless motor attached to each free end of arm. Quadrotor consists of four rotor/propeller attached to each motor shaft. Four rotors with fixed angles represent fixed pitch to generate equivalent force at each end to lift the body and payload. All DC brushless motors are attached to electronic speed controller to control speed of each individual motor. Four electronic speed controllers connected with each other by parallel connection in to power distribution board. A battery is used as power source. The rotation of propeller is controlled by remote controller (RC).. Follow the mirror margins and paper size of letter i.e. 8.5 x 11, in your manuscript as per the template. 3. Theory All DC brushless motor attached by parallel connection with other motors. Power distributed to power distribution board from battery. Further the power distributes equally to four electronic speed controllers and then goes in to each DC brushless motors. Accelerometers will measure the angle of Quadrotor in terms of X, Y and Z axis and accordingly adjust the RPM of each motor in order to self stabilize by it-self. The stability is provided by setting the direction of rotation clockwise of one set of opposite motors and counter-clockwise of other set of motors which nullifies the net moment and gyroscopic effects. By using this principle one is able to adjust the speed and can get desired speed of each individual motor in order to get desired yaw, pitch and roll. RPM of the shaft of a motor is a function of voltage provided to that motor. Roll and pitch can be controlled by changing the speed of the appropriate motor, while yaw control involves proper balancing of all four motor results in to change in moment and force applied to take appropriate turn. Controlling of quadrotor involves different four states. JETIR Journal of Emerging Technologies and Innovative Research (JETIR) 137
2 3.1. Upward motion (Z direction): The force required for this motion is known as lift force and generated by thrust produced by four propellers rotating at same speed Yaw Motion (ψ): This motion is attained by increasing speed of appropriate set of motors. By generating couple of force from two neighbor motors, yawing can be achieved 3.3. Pitch Motion (ө): This motion can be attained by generating couple of forces from the set of motors in the direction of the movement (Front and rear motor) 3.4. Roll Motion (Ф): This motion can be attained by generating couple of forces from the set of motors in the direction other than the direction of motion (Left and Right side motor. 4. Literature Study Many research have been made on quadrotor by worldwide researchers. Pounds et al. presented fundamental dynamics analysis and control approaches through the design of a large-size quadrotor with total weight of 4kg and capable of lifting a 1kg payload which was deemed necessary for the computers and sensors of the time [4], [5]. Bouabdallah and Siegwart accomplished impressive results in control and state estimation with a quadcopter platform and a ground station. Image data was sent to the ground station, processed, and commands were transmitted back to the flying vehicle over a radio communications link [6]. Javier, Masoud and Bruce presented the usability of quadcopter as safety inspection tool in industries. They focused on the construction industry. Their study proposed the use of a quadcopter to fly over the construction jobsite and provide the safety manager with real time information about what is happening on the jobsite. Also through the communication tools embedded in the quadcopter, safety manager can interact directly with workers [7]. Tsubasa, Andrew, Ehrich, Eric, Paul and John proposed the concept of non-destructive evaluation of structures like bridges, where using equipment mounted on a highly stable and mobile UAV like quadcopter is more efficient and economical. The stability issue is addressed immediately by the quadcopter concept; however there was a need of a structure that was stiff, lightweight and less complex [8]. Recent case of using quadcopter for civilian application is when tsunami stuck the Fukushima nuclear power plant in Japan on the 11 th March, 2011.Dut to very unsafe conditions at the plant, Tokyo Electric Power (TEPCO) used a US-made micro aerial vehicle to photography the nuclear plant from above. The flying robot had already had already been used by the US military to find roadside bombs in Iraq [9]. The practical use of a quad copter was cited in New Zealand to examine the front of the Roman Catholic Cathedral in Christ church that was damaged in the 22 February, 2011 earthquake [10]. Universities and research institutions have started using this quadcopter as an experimental platform in different researches such as autonomous surveillance and navigation [11], humanmachine interaction [12], and even as a sport assistant by providing athletes with external imagery of their actions [13]. 5. WORKING The input wireless signal is generated and transmitted by remote controller which is received by receiver on the board. Generally Xbee coordinator is used to transmit signal and Xbee router is used to receive control signal. The microcontrollers decodes the data from the input signal received by router and takes appropriate action. A IMU board consisting of a 3-axis gyroscope and a 3axis accelerometer is provided to stabilize and balance the body of quadrotor. According to signal received from the remote control, the processor governs the power and voltage from battery to each ESCs by power distribution board. Directional movement can be achieved by decreasing voltage of front motor and increasing the voltage of rear motor. Yawing can be achieved by reducing voltage of inner sided motor and increasing voltage of outer side motor in the direction of turn. 6. Components 6.1. Microcontroller: Microcontroller consists of 3-axis gyroscope and 3-axis accelerometer. An accelerometer is a device measures acceleration forces. A gyroscope is a device used primarily for navigation and measurement of angular velocity. 3 axis gyroscope are often implemented with 3-axis accelerometer to provide a full 6 degree of freedom [DOF] motion tracking system DC Brushless Motor: Brushless motors has more advantage compare to brushed motor, force motor and servo motor in terms of comparatively more efficiency, reliability, longer life span, more power, high torque per weight, reduced noise factor, elimination of ionizing sparks from commutator and overall reduction of electromagnetic interface Propellers: Propellers are used to generate aerodynamic lift force. A pair of clockwise rotating and a pair of counter clock wise rotating propellers nullifies the gyroscopic effect of each individual motor. We will be using propellers having diameter of 11 inches and pitch of 4.7 inches/revolution Electronic Speed Controller (ESC): An ESC is an electronic circuit used to vary an electric motor's speed and also acts as dynamic brakes of the system. An ESC controls the brushless motor by converting the supplied DC from the battery into three phased AC. We are using v3.1, 25 A basic Turnigy brushless speed controller Battery (LiPo): Lithium polymer batteries (LiPo) are most popular for powering remote control aircraft due to its light weight, energy density, longer run times and ability to be recharged. We selected zippy 5000mah, 11.1 V, 3 cell, 25 C battery Lippo Alarm: A Lippo alarm is an audible and visual alarm that plugs into battery to provide a voltage warning during flight to land the quadrotor prior to failure due to low voltage Remote controller (RC): A radio control (RC) system needs a transmitter and receiver. Remote controller is used to serve multi purposes like voltage regulation to ESCs, steering control, vertical take-of and landing (VTOL). We are using 6 channel FHSS 2.4GHz Turnigy Remote Controller. JETIR Journal of Emerging Technologies and Innovative Research (JETIR) 138
3 7. Conclusion The core intension of our project is to study the complete designing process of Quadrotor from the engineering perspective and to fabricate a working model of UAV-Quadrotor with improvement in its weight carrying capacity. Our main goal is to fabricate a Quadrotor which can be used for multipurpose application in market, military, commercial and industrial applications like Traffic monitoring and management, Search and rescue operation, Temperature and altitude estimation, Crowd management, Locating forest fire or frost conditions in farmlands, Weather forecasting, post natural disaster, Object identification and Reconnaissance. With the help of our project guides, we have the resources and technical knowledge to successfully complete this project. We chose the UAV Quadrotor for project because of its flexibility, high learning opportunity and potential of future research. This project can go further in variety of research work to integrate various technologies with UAVs to get various useful outputs. This project will be definitely useful to implement new function of high weight lifting in the account of UAVs. References [1] Aerodynamics for Engineering Students by E. L. Houghton, P.W.Carpenter, Butterworth-Heinemann Publication. [2] Fundamentals of Aerodynamics by John David Anderson, McGraw-Hill Publication. [3] Engineer's Aerodynamics by S. M. Yahya, John wiley&sons publication. [4] P. Pounds, R. Mahony, and P. Corke, Modelling and Control of a Large Quadrotor Robot, in Control Engineering Practice, vol. 18, pp , [5] P. Pounds and R. Mahony, Design principles of large quadrotors for practical applications, in Proceedings of the IEEE International Conference on Robotics and Automation (ICRA), pp , May [6] R. S. Samir Bouabdallah, PierpaoloMurrieri Autonomous Robots, vol. 18, Mar [7] J. Irizarry, M. Gheisari and B. Walker, Usability assessment of drone technology as safety inspection tools in Journal of Information Technology in Construction, Sept [8] T. Iwai, A. Nunnikhoven, E. Rodger, E. Roggatz, P. Rose and J. Warning, Quadcopter with collective and cyclic control in Iowa State University, Project Design, Fall [9] Honig, Z. (2011) T-Hawk UAV enters Fukushima danger zone, returns with video. 6:48PM April 21, 2011, retrieved on April 22, [10] Zibreg. C. (2011) Awesome use of an ipad and the Parrot AR Drone. 8:10 June 15, 2011, retrieved on June 15, awesome-use-of-an-ipad-and-the-parrot-ar-drone/. [11] Faigl, J., Krajnik, T., Vonasek, V., and Preucil, L. (2010) Surveillance planning with localization uncertainty for mobile robots. 3rd Israeli Conference on Robotic. [12] Ng, W.S., and Sharlin, E. (2011) Collocated interaction with flying robots. Technical Report , Department of Computer Science, University of Calgary, Calgary, Canada (2011). [13] Higuchi, K., Shimada, T., and Rekimoto, J. (2011) Flying sports assistant: external visual imagery representation for sports training. 2nd Augmented Human International Conference, New York, NY, USA, ACM 7:1 7:4.under the interest of many researchers and want to explore the application. There is currently a large range of projects and research topics emerging in this field. Preliminary research has shown that the most versatile and mechanically easy to construct UAV is a quadrotor helicopter. This is due to the fact that quadrotor aerial robot is an automatic system which is an unmanned VTOL (vertical take-off and landing) helicopter. Quadrotors can be controlled by varying the speed of the four rotors and no mechanical linkages are required to vary the rotor blade pitch angles as compare to a conventional helicopter. 2. Body of Manuscript 2. Construction Quadrotor consisting of a main body having four arms centrally connected to each other and four DC brushless motor attached to each free end of arm. Quadrotor consists of four rotor/propeller attached to each motor shaft. Four rotors with fixed angles represent fixed pitch to generate equivalent force at each end to lift the body and payload. All DC brushless motors are attached to electronic speed controller to control speed of each individual motor. Four electronic speed controllers connected with each other by parallel connection in to power distribution board. A battery is used as power source. The rotation of propeller is controlled by remote controller (RC).. Follow the mirror margins and paper size of letter i.e. 8.5 x 11, in your manuscript as per the template. 3.Theory All DC brushless motor attached by parallel connection with other motors. Power distributed to power distribution board from battery. Further the power distributes equally to four electronic speed controllers and then goes in to each DC brushless motors. Accelerometers will measure the angle of Quadrotor in terms of X, Y and Z axis and accordingly adjust the RPM of each motor in order to self stabilize by it-self. The stability is provided by setting the direction of rotation clockwise of one set of opposite motors and counter-clockwise of other set of motors which nullifies the net moment and gyroscopic effects. By using this principle one is able to adjust the speed and can get desired speed of each individual motor in order to get desired yaw, pitch and roll. RPM of the shaft of a motor is a function of voltage provided to that motor. Roll and pitch can be controlled by changing the speed of the appropriate motor, while yaw control involves proper balancing of all four motor results in to change in moment and force applied to take appropriate turn. Controlling of quadrotor involves different four states. 3.1.Upward motion (Z direction): The force required for this motion is known as lift force and generated by thrust produced by four propellers rotating at same speed. 3.2.Yaw Motion (ψ): This motion is attained by increasing speed of appropriate set of motors. By generating couple of force from two neighbor motors, yawing can be achieved JETIR Journal of Emerging Technologies and Innovative Research (JETIR) 139
4 3.3. Pitch Motion (ө): This motion can be attained by generating couple of forces from the set of motors in the direction of the movement (Front and rear motor) 3.4. Roll Motion (Ф): This motion can be attained by generating couple of forces from the set of motors in the direction other than the direction of motion (Left and Right side motor. 4. Literature Study Many research have been made on quadrotor by worldwide researchers. Pounds et al. presented fundamental dynamics analysis and control approaches through the design of a large-size quadrotor with total weight of 4kg and capable of lifting a 1kg payload which was deemed necessary for the computers and sensors of the time [4], [5]. Bouabdallah and Siegwart accomplished impressive results in control and state estimation with a quadcopter platform and a ground station. Image data was sent to the ground station, processed, and commands were transmitted back to the flying vehicle over a radio communications link [6]. Javier, Masoud and Bruce presented the usability of quadcopter as safety inspection tool in industries. They focused on the construction industry. Their study proposed the use of a quadcopter to fly over the construction jobsite and provide the safety manager with real time information about what is happening on the jobsite. Also through the communication tools embedded in the quadcopter, safety manager can interact directly with workers [7]. Tsubasa, Andrew, Ehrich, Eric, Paul and John proposed the concept of non-destructive evaluation of structures like bridges, where using equipment mounted on a highly stable and mobile UAV like quadcopter is more efficient and economical. The stability issue is addressed immediately by the quadcopter concept; however there was a need of a structure that was stiff, lightweight and less complex [8]. Recent case of using quadcopter for civilian application is when tsunami stuck the Fukushima nuclear power plant in Japan on the 11 th March, 2011.Dut to very unsafe conditions at the plant, Tokyo Electric Power (TEPCO) used a US-made micro aerial vehicle to photography the nuclear plant from above. The flying robot had already had already been used by the US military to find roadside bombs in Iraq [9]. The practical use of a quad copter was cited in New Zealand to examine the front of the Roman Catholic Cathedral in Christ church that was damaged in the 22 February, 2011 earthquake [10]. Universities and research institutions have started using this quadcopter as an experimental platform in different researches such as autonomous surveillance and navigation [11], humanmachine interaction [12], and even as a sport assistant by providing athletes with external imagery of their actions [13]. 5. WORKING The input wireless signal is generated and transmitted by remote controller which is received by receiver on the board. Generally Xbee coordinator is used to transmit signal and Xbee router is used to receive control signal. The microcontrollers decodes the data from the input signal received by router and takes appropriate action. A IMU board consisting of a 3-axis gyroscope and a 3axis accelerometer is provided to stabilize and balance the body of quadrotor. According to signal received from the remote control, the processor governs the power and voltage from battery to each ESCs by power distribution board. Directional movement can be achieved by decreasing voltage of front motor and increasing the voltage of rear motor. Yawing can be achieved by reducing voltage of inner sided motor and increasing voltage of outer side motor in the direction of turn. 6. Components 6.1. Microcontroller: Microcontroller consists of 3-axis gyroscope and 3-axis accelerometer. An accelerometer is a device measures acceleration forces. A gyroscope is a device used primarily for navigation and measurement of angular velocity. 3 axis gyroscope are often implemented with 3-axis accelerometer to provide a full 6 degree of freedom [DOF] motion tracking system DC Brushless Motor: Brushless motors has more advantage compare to brushed motor, force motor and servo motor in terms of comparatively more efficiency, reliability, longer life span, more power, high torque per weight, reduced noise factor, elimination of ionizing sparks from commutator and overall reduction of electromagnetic interface Propellers: Propellers are used to generate aerodynamic lift force. A pair of clockwise rotating and a pair of counter clock wise rotating propellers nullifies the gyroscopic effect of each individual motor. We will be using propellers having diameter of 11 inches and pitch of 4.7 inches/revolution Electronic Speed Controller (ESC): An ESC is an electronic circuit used to vary an electric motor's speed and also acts as dynamic brakes of the system. An ESC controls the brushless motor by converting the supplied DC from the battery into three phased AC. We are using v3.1, 25 A basic Turnigy brushless speed controller Battery (LiPo): Lithium polymer batteries (LiPo) are most popular for powering remote control aircraft due to its light weight, energy density, longer run times and ability to be recharged. We selected zippy 5000mah, 11.1 V, 3 cell, 25 C battery Lippo Alarm: A Lippo alarm is an audible and visual alarm that plugs into battery to provide a voltage warning during flight to land the quadrotor prior to failure due to low voltage. JETIR Journal of Emerging Technologies and Innovative Research (JETIR) 140
5 6.7. Remote controller (RC): A radio control (RC) system needs a transmitter and receiver. Remote controller is used to serve multi purposes like voltage regulation to ESCs, steering control, vertical take-of and landing (VTOL). We are using 6 channel FHSS 2.4GHz Turnigy Remote Controller. 7. Conclusion The core intension of our project is to study the complete designing process of quadrotor from the engineering perspective and to fabricate a working model of UAV-Quadrotor with improvement in its weight carrying capacity. Our main goal is to fabricate a Quadrotor which can be used for multipurpose application in market, military, commercial and industrial applications like Traffic monitoring and management, Search and rescue operation, Temperature and altitude estimation, Crowd management, Locating forest fire or frost conditions in farmlands, Weather forecasting, post natural disaster, Object identification and Reconnaissance. With the help of our project guides, we have the resources and technical knowledge to successfully complete this project. We chose the UAV Quadrotor for project because of its flexibility, high learning opportunity and potential of future research. This project can go further in variety of research work to integrate various technologies with UAVs to get various useful outputs. This project will be definitely useful to implement new function of high weight lifting in the account of UAVs. References [1] Aerodynamics for Engineering Students by E. L. Houghton, P.W.Carpenter, Butterworth-Heinemann Publication. [2] Fundamentals of Aerodynamics by John David Anderson, McGraw-Hill Publication. [3] Engineer's Aerodynamics by S. M. Yahya, John wiley&sons publication. [4] P. Pounds, R. Mahony, and P. Corke, Modelling and Control of a Large Quadrotor Robot, in Control Engineering Practice, vol. 18, pp , [5] P. Pounds and R. Mahony, Design principles of large quadrotors for practical applications, in Proceedings of the IEEE International Conference on Robotics and Automation (ICRA), pp , May [6] R. S. Samir Bouabdallah, PierpaoloMurrieri Autonomous Robots, vol. 18, Mar [7] J. Irizarry, M. Gheisari and B. Walker, Usability assessment of drone technology as safety inspection tools in Journal of Information Technology in Construction, Sept [8] T. Iwai, A. Nunnikhoven, E. Rodger, E. Roggatz, P. Rose and J. Warning, Quadcopter with collective and cyclic control in Iowa State University, Project Design, Fall [9] Honig, Z. (2011) T-Hawk UAV enters Fukushima danger zone, returns with video. 6:48PM April 21, 2011, retrieved on April 22, [10] Zibreg. C. (2011) Awesome use of an ipad and the Parrot AR Drone. 8:10 June 15, 2011, retrieved on June 15, awesome-use-of-an-ipad-and-the-parrot-ar-drone/. [11] Faigl, J., Krajnik, T., Vonasek, V., and Preucil, L. (2010) Surveillance planning with localization uncertainty for mobile robots. 3rd Israeli Conference on Robotic. [12] Ng, W.S., and Sharlin, E. (2011) Collocated interaction with flying robots. Technical Report , Department of Computer Science, University of Calgary, Calgary, Canada (2011). [13] Higuchi, K., Shimada, T., and Rekimoto, J. (2011) Flying sports assistant: external visual imagery representation for sports training. 2nd Augmented Human International Conference, New York, NY, USA, ACM 7:1 7:4. JETIR Journal of Emerging Technologies and Innovative Research (JETIR) 141
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